What is the "pH" for a solution containing "0.500 M" of a weak triprotic acid whose first K_a is 5.78 xx 10^(-10)? Assume only the first proton is significant. Report your answer to two significant figures.

1 Answer
Truong-Son N.
Mar 4, 2017

The ICE table is the typical one for monoprotic weak acids, since we only look at the first proton here:

"H"_3"A"(aq) + "H"_2"O"(l) rightleftharpoons "H"_2"A"^(-)(aq) + "H"_3"O"^(+)(aq)

"I"" "0.500" "" "" "-" "" "" "0" "" "" "" "" "0
"C"" "-x" "" "" "-" "" "+x" "" "" "" "+x
"E"" "0.500-x" "-" "" "" "x" "" "" "" "" "x

The mass action expression is:

K_(a1) = (["H"_2"A"^(-)]["H"_3"O"^(+)])/(["H"_3"A"]) = 5.78 xx 10^(-10)

= x^2/(0.500 - x)

This K_(a1) is small, so to a great approximation, x=["H"^(+)] is indeed small in comparison to "0.500 M". Thus, we make the approximation so that

5.78 xx 10^(-10) ~~ x^2/0.500

and so:

["H"^(+)] = sqrt(5.78 xx 10^(-10) cdot 0.500) " M" = 1.7 xx 10^(-5) "M"

and the "pH" would just be:

"pH" = -log["H"^(+)] = 4.769

To two sig figs it would then be:

color(blue)("pH" = 4.8)

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